Phononic band structure in a two-dimensional hybrid triangular graphite lattice

Using symmetry reduction concept, the band gap properties of a two-dimensional hybrid triangular lattice phononic crystal were investigated both theoretically and experimentally. The band structure was calculated with the plane wave expansion (PWE) method. The results revealed that the band degenera

We describe the calculation of photonic band structures of two-dimensional lattices made of more than one dielectric array. In particular, we study a face-centered graphite (fcg) structure obtained by an arrangement of two sets of cylindrical rods, one located at the vertices of regular hexagons (gr

Two-dimensional photonic lattices have been fabricated in GaAs by using standard electron beam lithography and reactive ion etching techniques. In order to obtain absolute photonic band gaps at near-infrared frequencies, graphite structures which consist of parallel cylindrical rods of GaAs at the v

In this paper we consider a two-dimensional hybrid thermo-elastic structure consisting of a thermo-elastic plate which has a beam attached to its free end. We show that the initial-boundary-value problem for the interactive system of partial differential equations which take account of the mechanica